JP3638232B2 - Card insertion / removal mechanism - Google Patents

Description

[0001]
【Technical field】
The present invention relates to a card insertion / removal mechanism for an electronic device.
[0002]
[Prior art and its problems]
Various types of cards with different sizes such as width and thickness are in circulation, such as memory cards for recording images of digital cameras, which are inserted into and removed from slotted card slots. Therefore, there is a possibility that a card smaller than the corresponding size may be accidentally inserted into the card slot. As a result, the card cannot be removed or the connector provided in the card slot may be damaged. . Also, foreign objects other than cards are often mistakenly inserted into the card slot.
[0003]
OBJECT OF THE INVENTION
The present invention has been made in view of the above problems, and an object thereof is to provide a card insertion / removal mechanism that can prevent insertion of a foreign object or a card of a size that does not correspond with a simple configuration.
[0004]
SUMMARY OF THE INVENTION
  The card insertion / removal mechanism of the present invention includes a card slot into which a plate-like card can be inserted / removed; a closed position for closing the card slot to restrict insertion of the card, and an inward opening of the card slot to insert the card. An open / close door that can be pivoted to an open position that is allowed and that is biased to the closed position in a free state; and in the free state, the open / close door is independently locked in the closed position and correctly inserted into the card slot. A pair of door lock members spaced apart in the width direction of the card slot to release the lock when pressed by the cardThe open / close door has an elongated rectangular plate shape that is long in the width direction of the card slot, and rotates about the axis in the longitudinal direction to the closed position and the open position. A pair of door lock members are supported so as to be rotatable about an axis in a short direction perpendicular to the rotation axis of the open / close door, and each door lock member is fixed to a fixing member in the card slot by this rotation. Engage and disengage and lock or unlock the doorIt is characterized by that. According to this card insertion / removal mechanism, since the pair of door lock members are separated from each other in the width direction of the card slot, only when the separated door lock members are simultaneously pressed in the card insertion direction to unlock the card. The card can be inserted into the slot. In other words, even if a card or foreign object narrower than the distance between the pair of door lock members is inserted into the card slot, the locked state of at least one door lock member is maintained. Insertion into the card slot is blocked by the open / close door in the closed position.In addition, since the pair of door lock members are supported on the open / close door, the door lock members can be arranged in a space-efficient manner, and there is no possibility that an operation shift occurs between the open / close door and the door lock member.
[0005]
  A pair of door lock membersofRespectivelyIn,Elastic contact with the open / close doorThe door lock member is biased in the locking direction.The elastically deformable biasing partIf they are integrally formed, the number of parts can be reduced.
[0006]
  The card insertion / removal mechanism of the present invention also has a card slot into which a plate-like card can be inserted / removed, a closed position for closing the card slot and restricting insertion of the card, and an inward insertion of the card slot. The open / close door that can be rotated to the open position that allows it to rotate, and is urged to rotate to the closed position in the free state, and in the free state, the open / close door is independently locked in the closed position and inserted correctly into the card slot. A pair of door lock members provided to be spaced apart in the width direction of the card slot to release the lock when pressed by the card,A pair of split doors that are arranged separately on both sides in the width direction of the card slot and are supported so that the extending direction thereof is substantially orthogonal to the card insertion direction in the closed position. It is also possible to have a configuration including members. In this case, the pair of door lock members are respectively supported in the vicinity of one and the other of the pair of divided door members so as to be rotatable about an axis parallel to the rotation axis of the divided door member. It is preferable to be configured to engage or disengage with the corresponding divided door member to lock or unlock.
[0007]
The pair of door lock members are arranged symmetrically with respect to the center line in the width direction of the card slot, and are preferably configured to be unlocked by rotating in opposite directions when pressed in the card insertion direction. .
[0008]
The above card insertion / removal mechanism can be a memory card insertion / removal mechanism of a digital camera, for example.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on illustrated embodiments. In the embodiment shown in FIGS. 1 to 6, the present invention is applied as a memory card insertion / removal mechanism of the digital camera 10, but the card insertion / removal mechanism of the present invention is not limited to a digital camera. Absent.
[0010]
The digital camera 10 has a photographing lens 14 on the front surface of the camera body 12, and a subject image by the photographing lens 14 is imaged on the CCD 16 and processed as digital image data via an image processing circuit 18. This digital image data is recorded on the internal memory 20 in the camera body 12 or the IC memory chip of the memory card 22 that can be inserted into and removed from the camera body 12 via the control circuit 19. A liquid crystal display 23 is provided on the back surface of the camera body 12, and a subject image formed on the CCD 16 by the photographing lens 14 and a memory image read from the built-in memory 20 or the memory card 22 can be displayed.
[0011]
A card slot 24 for inserting / removing a memory card 22 into / from the camera body 12 is formed on one side of the camera body 12 appearing in FIG. The card slot 24 is a groove-shaped portion having a width, height, and depth corresponding to the width, thickness, and insertion length of the memory card 22, and the opening 24 a faces the side surface of the camera body 12. As shown in FIGS. 5 and 6, the width SW1 in the longitudinal direction and the height H in the short direction of the card slot 24 are slightly larger than the width CW1 and the thickness T of the corresponding memory card 22, respectively. A plurality of connector pins 25 (FIG. 2) that can be engaged with the connector portion 22 a (FIG. 2) of the memory card card 22 are provided at the innermost portion of the card slot 24.
[0012]
An opening / closing door 30 having a lock mechanism is provided in the card slot 24. The open / close door 30 includes an elongated rectangular plate-like door main body 32 that can block the card slot 24, and a pair of rotation support portions 34 having a substantially cylindrical shape are formed near both ends of the door main body 32. ing. A rotation shaft 36 extending in the longitudinal direction of the door body 32 is inserted through the shaft insertion hole 34 a of each rotation support portion 34. Both ends of the rotation shaft 36 are supported by the camera body 12, and the door body 32 has a closed position (a position indicated by a solid line in FIG. 6) that closes the card slot 24 around the rotation shaft 36, and a card. It is rotatably supported at an open position (a position indicated by a two-dot chain line in FIG. 6) that opens toward the inside of the slot 24. As shown in FIGS. 1 and 6, a stopper 38 is provided in the card slot 24 so as to prevent the door body 32 from rotating further from the closed position toward the outside of the camera body 12.
[0013]
A coiled door urging spring 40 wound concentrically with the rotation shaft 36 is provided in each rotation support portion 34. One end of the door biasing spring 40 is engaged with the door body 32, and the other end is engaged with the camera body 12 (upper part of the camera body 12 in FIG. 6). It is energized in the direction to rotate.
[0014]
The door main body 32 is formed with a pair of door lock member accommodation holes 42 at a predetermined interval in the longitudinal direction along the width direction of the card slot 24. The door lock member accommodation hole 42 is a rectangular through-hole that is long in the longitudinal direction of the door body 32, and the door body 32 has a total of four shafts so as to face a pair of long sides of each door lock member accommodation hole 42. An insertion hole 44 is formed. The pair of shaft insertion holes 44 corresponding to the door lock member accommodation holes 42 are positioned on a straight line in the short direction of the door body 32.
[0015]
A door lock member 50 is rotatably supported via a rotation shaft 46 in a pair of door lock member accommodation holes 42 provided in the door body 32. The pair of door lock members 50 are supported at symmetrical positions with respect to the center line in the longitudinal direction of the door main body 32, except that the shapes of the door lock members 50 are symmetrical with respect to the center line. It has a common structure.
[0016]
Each door lock member 50 includes a shaft insertion hole 52 corresponding to the shaft insertion hole 44 on the door main body 32 side, and a rotation shaft 46 (see FIG. 5) is formed in the shaft insertion hole 52 and the shaft insertion hole 44 on the door main body 32 side. 4 and FIG. 5), each door lock member 50 is supported to be rotatable about the rotation shaft 46 with respect to the door body 32.
[0017]
Each door lock member 50 includes a cylindrical portion 54 having a shaft insertion hole 52, and a pressed arm portion 56 and a lock arm portion 58 that extend from the cylindrical portion 54 in different directions. In the door body 32, when the surface facing the outside of the camera body 12 at the closed position is defined as the front surface and the surface facing the inside of the card slot 24 at the closed position is defined as the back surface, the pressed arm portion 56 is formed on the door body 32. Each door lock member 50 is supported by the door main body 32 so that it protrudes to the front surface side and, conversely, the lock arm portion 58 protrudes to the back surface side of the door main body 32. The pressed arm portion 56 is formed in a “<” shape bent in a direction close to the door body 32 in the middle (see FIGS. 4 and 5). On the other hand, the lock arm portion 58 is bent in the middle of the door body 32 in the middle thereof, and an engagement portion 60 is provided at the tip.
[0018]
The pair of door lock members 50 on the opening / closing door 30 are positioned so that the distance between the pressed arm portions 56 corresponds to the width CW1 of the memory card 22 that can be inserted and removed. That is, only when the memory card 22 having the corresponding width is correctly inserted into the card slot 24, the pair of pressed arms 56 are simultaneously pressed by the memory card 22.
[0019]
A door lock member urging spring 62 wound concentrically with the rotation shaft 46 is provided in the cylindrical portion 54 of each door lock member 50. One end of the door lock member biasing spring 62 is engaged with the door lock member 50, the other end is engaged with the door main body 32, and the distal end of the pressed arm portion 56 extends from the door main body 32. Each door lock member 50 is urged in a rotating direction so as to be separated. That is, the lower door lock member 50 in FIGS. 4 and 5 is urged to rotate clockwise, and the upper door lock member 50 in FIG. 4 is urged to rotate counterclockwise.
[0020]
In the card slot 24, a pair of fixing projections 64 that can engage with the engaging portion 60 of the door lock member 50 are provided. As shown in FIG. 6, the fixing protrusion 64 is a cylindrical protrusion protruding in a direction substantially orthogonal to the insertion direction of the memory card 22, so that the insertion operation of the memory card 22 is not hindered. It is provided at a position one step lower than the extension of the opening 24a. As described above, the lock arm portion 58 of each door lock member 50 is bent along the short direction of the door main body 32 in the middle thereof, and the engaging portion 60 is engaged with the fixed protrusion 64 provided at a low position. (See FIG. 6). As shown in FIG. 4, when the engaging portion 60 and the fixed protrusion 64 are engaged, this engagement relationship restricts the movement of the pair of door lock members 50 inward of the card slot 24. Therefore, even if only the door main body 32 supporting the pair of door lock members 50 is pushed in, the opening / closing door 30 cannot be opened toward the inside of the card slot 24.
[0021]
As shown in FIGS. 4 to 6, the open / close door 30 is supported at a position slightly recessed from the opening 24 a of the card slot 24, and the pressed arm portion 56 of the door lock member 50 from the side surface of the camera body 12. Will not protrude.
[0022]
The operation of the card insertion / removal mechanism having the above configuration will be described. When the memory card 22 is not inserted into the card slot 24, the open / close door 30 is in the state shown in FIG. In FIG. 4, the open / close door 30 is held in a closed position where the door body 32 abuts against the stopper 38 by a pair of door urging springs 40. The door lock member 50 is held at a position (lock position) at which the engaging portion 60 is engaged with the fixed protrusion 64 in the camera body 12 by the door lock member urging spring 62. In this state, even if only the door main body 32 is pushed into the camera body 12 without pushing the door lock member 50, the movement of the door lock member 50 in the same direction causes the engagement between the engaging portion 60 and the fixing protrusion 64. Therefore, the opening / closing door 30 cannot be opened toward the inside of the camera body 12. Even if only one of the pair of door lock members 50 is pressed in the card insertion direction to release the locked state, the locked state on the other door lock member 50 side is maintained, so that the open / close door 30 is also used. Can not open.
[0023]
That is, when a card or a foreign object having a width narrower than the interval between the pair of pressed arm portions 56 is to be inserted into the card slot 24, the pair of pressed arm portions 56 are not simultaneously pressed, Since the locked state is maintained in one door lock member 50, the opening / closing door 30 cannot be opened. Conversely, a card wider than the card slot 24 interferes with the camera body 12 and cannot be inserted into the card slot 24.
[0024]
FIG. 5 shows a case where a memory card 22 having a size corresponding to the digital camera 10 is inserted. The width CW1 of the memory card 22 is such a width that it can be inserted into the card slot 24 without interfering with the camera body 12 and the pair of pressed arm portions 56 can be pressed simultaneously. Accordingly, by the correct pushing operation of the memory card 22, the pair of door lock members 50 are rotated in the unlocking direction against the urging force of the door lock member urging spring 62, and the respective engaging portions 60 are moved to the camera body 12. It retreats from the engagement position with the inner fixed projection 64 (FIG. 5). As apparent from FIG. 5, the pair of door lock members 50 are rotated in the unlocking directions in opposite directions.
[0025]
When the pushing operation of the memory card 22 is further continued, the unlocked opening / closing door 30 rotates around the rotation shaft 36 as shown by a two-dot chain line in FIG. 6 against the urging force of the door urging spring 40. The memory card 22 can be accommodated in the card slot 24 by moving to the inside of the cart slot 24. When the memory card 22 is inserted all the way into the card slot 24, the connector portion 22a on the memory card 22 side engages with the connector pin 25 on the digital camera 10 side. In the inserted state of the memory card 22, the open / close door 30 is kept in an inwardly opened state by the memory card 22, and the door lock member 50 is held in the unlocked position.
[0026]
When the memory card 22 is pulled out of the camera body 12, the pressed arm portion 56 of the door lock member 50 is in contact with the memory card 22 by the urging force of the door lock member urging spring 62, while the opening / closing door 30 is the door urging spring. The urging force of 40 moves toward the closed position. When the memory card 22 is completely pulled out from the card slot 24, the door lock member 50 returns to the locked position, and the open / close door 30 returns to the closed position, returning to the state shown in FIG.
[0027]
As is clear from the above description, in the card insertion / removal mechanism of the present embodiment, the lock of the opening / closing door 30 is not released by the insertion operation of a card or a foreign object that is narrower than the memory card 22 corresponding to the digital camera 10. Therefore, the trouble that these narrow cards and foreign matters enter the card slot 24 can be avoided. Further, even if the memory card 22 has an appropriate width, if it is attempted to insert the memory card 22 at an inclination instead of the correct insertion direction, the pair of door lock members 50 cannot be unlocked together. It cannot be inserted. Furthermore, in this embodiment, when a card or a foreign object wider than a proper memory card 22 is inserted, it cannot be inserted into the card slot 24 because it interferes with the camera body 12. Therefore, unless the door lock member 50 is intentionally unlocked, insertion into the card slot 24 is allowed only when the memory card 22 of an appropriate size is inserted in the correct insertion direction. become.
[0028]
7 and 8 show different embodiments of the door lock member. This embodiment is basically the same as the embodiment of FIGS. 1 to 6 except that the configuration of the pair of door lock members 70 is different from that of the previous door lock member 50. Each of the pair of door lock members 70 is rotatably supported on the door main body 32 ′ by a rotation shaft 46 ′, similarly to the door lock member 50 described above. Although only one door lock member 70 will be described below, the pair of door lock members 70 have a common structure except that they are formed so as to be symmetrical in the longitudinal direction of the door body 32 '. In FIG. 8, only one door lock member 70 is shown.
[0029]
The door lock member 70 is provided with a shaft holding groove 71 through which the rotation shaft 46 ′ is inserted. Similarly to the door lock member 50, the door lock member 70 includes a pressed arm portion 72 and a lock arm portion 74 that are extended in different directions, and the pressed arm portion 72 extends outward from the door main body 32 ′. The lock arm 74 protrudes inward of the card slot from the door body 32 '. The lock arm portion 74 can engage and disengage the engagement portion 75 at the tip of the lock arm portion 74 with the fixed protrusion 64 ′ in the camera body according to the rotation of the door lock member 70. The door lock member 70 further includes an elastic arm portion 78 extending in a direction substantially orthogonal to the lock arm portion 74. The plate-like elastic arm portion 78 is formed thin so that a certain amount of elastic deformation is possible in a direction orthogonal to the plate surface. In the door lock member 70, the above-described components are integrally formed.
[0030]
When the door lock member 70 is assembled to the door main body 32 ′ so that the lock arm portion 74 engages with the fixing protrusion 64 ′, the elastic arm portion 78 is slightly elastically deformed in the direction of arrow A in FIG. Closely contacts the door body 32 '. As the elastic arm 78 tries to restore, a force in the direction of arrow A is applied to each of the pair of door lock members 70, but in the direction of arrow A due to the engagement of the lock arm 74 and the fixing protrusion 64 ′. Since the further rotation is restricted, the state of FIG. 7 is maintained.
[0031]
Here, when the operation of inserting the memory card 22 ′ having a width corresponding to the interval between the pair of pressed arm portions 72 into the card slot 24 ′ is performed, the leading end portion of the memory card 22 ′ is paired with the pair of pressed arm portions 72. Are simultaneously pushed, and each door lock member 70 is rotated in the direction opposite to the arrow A direction in FIG. 7 while increasing the amount of elastic deformation of the elastic arm portion 78. The engagement between the engagement portion 75 at the tip of the lock arm portion 74 and the fixing projection 64 ′ is released according to the turning operation of the pair of door lock members 70, and the door main body 32 ′ is moved inward of the card slot 24 ′. Therefore, when the insertion operation of the memory card 22 ′ is continued, the door body 32 ′ is opened.
[0032]
Even in the embodiment according to FIGS. 7 and 8 described above, since the pair of door lock members 70 cannot be simultaneously pressed in the unlocking direction in the operation of inserting a card or foreign object having an uncorresponding width, such an unsupported card or foreign object is not possible. Can be prevented from entering the card slot 24 '. Even if the memory card 22 'is appropriate, insertion is similarly restricted if the insertion direction is not correct. Particularly in this embodiment, the urging means for urging the door lock member 70 in the lock direction, that is, the elastic arm 78 is formed integrally with the door lock member 70, so that the number of parts can be reduced. .
[0033]
  In the two embodiments described above, it passes through the center of the rotation shaft (46) that supports each door lock member (50, 70) in parallel to the longitudinal center line of the door body (32, 32 '). The planar positions in FIGS. 4, 5 and 7 of the fixing protrusions (64, 64 ′) with respect to the line are located on the side opposite to the unlocking side.In other words, in FIGS. 4, 5, and 7, the upper fixing protrusions (64, 64 ′) in the drawing are higher than the rotation shafts (46) of the corresponding door lock members (50, 70). The fixing protrusions (64, 64 ') on the lower side in the figure are located on the one side of the door main bodies 32, 32', and the rotation shafts (46) of the corresponding door lock members (50, 70). ) In the figure (the other side of the door main bodies 32, 32 ').With this configuration, when the door body is pushed, torque in the unlocking direction is not generated.
[0034]
9 to 11 show still another embodiment of the card insertion / removal mechanism. The card slot 124 formed in the camera body 112 of this embodiment is oriented in the longitudinal direction in each figure. The width SW2 in the longitudinal direction of the opening 124a of the card slot 124 is slightly larger than the width CW2 of the corresponding appropriate memory card 122 (see FIG. 10).
[0035]
In the card slot 124, a shutter 80 that is rotatable about a rotation shaft 81 is provided. The shutter 80 closes the card slot 124 when it is in the position indicated by the solid line in FIGS. 9 and 10, and is released when it is rotated to the position indicated by the two-dot chain line. It is urged to rotate in a direction to close 124 and is maintained in a closed posture. However, unlike the above-described opening / closing door 30, the shutter 80 does not have a lock mechanism.
[0036]
An opening / closing door 82 having a lock mechanism is provided further inside the card slot 124. The open / close door 82 includes a pair of split door members 82A and 82B arranged on both sides of the card slot 124. The split door members 82A and 82B are respectively in the short direction of the elongated card slot 124 (see FIG. 9 and FIG. 9). It is rotatably supported by a rotation shaft 83 whose axis is oriented in a direction perpendicular to the paper surface of FIG. The divided door members 82A and 82B are configured so as to be substantially symmetrical with each other with respect to the center line in the longitudinal direction (width SW2 direction) of the card slot 124, and each is substantially the same as the insertion direction of the memory card 122 into the card slot 124. It is rotated between a closed position (FIG. 9) extending in the orthogonal direction and an open position (FIG. 10) that is substantially parallel to the insertion direction of the memory card 122. Within the camera body 112, there are a pair of restricting projections 84 that engage with each of the divided door members 82A and 82B in this closed position, and a pair of restricting projections 86 that engage with each of the divided door members 82A and 82B in the open position. Projected.
[0037]
Each of the divided door members 82A, 82B is urged to rotate toward the closed position shown in FIG. The split door members 82A and 82B have such a length that their tips overlap when they are in the closed position. As shown in FIG. 11, the split door member 82A has a slit 89 formed at the tip. The distal end portion of the divided door member 82B is formed thin so as to be able to enter the slit 89, and the divided door members 82A and 82B can be rotated to the closed position without interfering with each other.
[0038]
In the vicinity of the divided door members 82A and 82B, lock levers 90A and 90B (door lock members) are supported so as to be rotatable about a rotation shaft 92, respectively. The lock levers 90A and 90B are provided corresponding to the divided door members 82A and 82B, respectively, and are substantially the same except that they are symmetrical with respect to the longitudinal center line of the card slot 124. Therefore, the configuration and operation of only one lock lever 90A will be described below.
[0039]
The lock lever 90 </ b> A has a “<” shape bent near the rotation shaft 92, has a pressed portion 94 at one end with the rotation shaft 92 interposed, and a cylindrical lock pin at the other end. 96. The pressed portion 94 changes between a state of protruding into the card slot 124 (FIG. 9) and a state of being substantially parallel to the side wall surface of the card slot 124 (FIG. 10) in accordance with the turning operation of the lock lever 90A. As described above, an inclined surface 94a is formed. On the other hand, the lock pin 96 engages with a stepped portion 98 provided in the divided door member 82A at the rotation position of the lock lever 90A shown in FIG. 9, and restricts the rotation of the divided door member 82A in the opening direction. In the rotation position of the lock lever 90A shown in FIG. 10, the division door member 82A is allowed to rotate in the opening direction by retracting from the engagement position with the stepped portion 98. The lock lever 90A is urged to rotate by the lock lever urging spring 100 in the rotation position of FIG. 9, that is, the lock pin 96 regulates the rotation of the divided door member 82A in the opening direction.
[0040]
The operation of the card insertion / removal mechanism of the present embodiment having the above configuration will be described. When a memory card 122 of an appropriate size is inserted into the card slot 124, the shutter 80 is pushed inward by being pushed by the memory card 122, and both sides of the front end of the memory card 122 are respectively covered by the pair of lock levers 90A and 90B. It abuts on the pressing portion 94. When the pressed portion 94 is pushed in by the insertion operation of the memory card 122, the lock levers 90A and 90B are rotated in the unlocking direction against the urging force of the lock lever urging spring 100, and the divided door members 82A and 82B are respectively rotated. Rotation restriction in the opening direction with respect to is released. When the insertion operation of the memory card 122 is further continued, the leading end of the memory card 122 comes into contact with the divided door members 82A and 82B and is pushed into the card slot 124. Here, since the locks on the divided door members 82A and 82B are released, the divided door members 82A and 82B are moved in the opening direction against the urging force of the door urging spring 88 in accordance with the insertion of the memory card 122. The memory card 122 can be inserted to the innermost part of the card slot 124 as shown in FIG.
[0041]
On the other hand, when the memory card 122 is removed from the card slot 124, the divided door members 82A and 82B are returned to the closed position in FIG. 9 by the biasing force of each door biasing spring 88, and the lock levers 90A and 90B are also biased by the lock levers. The spring 100 returns to the locked position shown in FIG. Further, the shutter 80 also returns to the position where the card slot 124 is closed.
[0042]
Further, when a card or a foreign object narrower than the memory card 122 is to be inserted into the card slot 124, the insertion can be prevented as follows. In other words, the narrow card cannot press the pressed portions 94 of the pair of lock levers 90A and 90B at the same time, does not contact either of them, or presses only one pressed portion 94. It abuts on the divided door members 82A and 82B. That is, since at least one of the lock levers 90A and 90B is not moved to the unlock position, even if the divided door members 82A and 82B that are not unlocked are pressed, the card slots 124 can be opened inward. I can't. As a result, it is possible to avoid inserting a narrow card or a foreign object that does not correspond to the card slot 124 by mistake. Even if the memory card 122 is appropriate, insertion is restricted if the insertion direction is not correct.
[0043]
As is clear from the above, in the card insertion / removal mechanism of each embodiment, a pair of door lock members that lock the opening / closing door that closes the card slot are provided apart in the width direction of the card, and the card of the corresponding width is correctly Only when the card is inserted, the pair of door lock members are both unlocked by the insertion operation. Therefore, even if an attempt is made to insert a card or a foreign object narrower than the distance between the pair of door lock members into the card slot. At least one of the door lock members is maintained in a locked state, and insertion of these narrow cards and foreign objects can be prevented.
[0044]
However, the present invention is not limited to the illustrated embodiment. For example, as described above, the present invention can be applied to uses other than insertion / removal of a memory card of a digital camera, for example, a PC card slot of a portable terminal device such as a notebook personal computer.
[0045]
【The invention's effect】
As described above, according to the present invention, a card insertion / removal mechanism that can prevent insertion of a foreign object or a card of a size that does not correspond can be obtained with a simple configuration.
[Brief description of the drawings]
FIG. 1 is a perspective view of an embodiment of a card insertion / removal mechanism according to the present invention and a part of a digital camera equipped with the card insertion / removal mechanism according to the embodiment as viewed obliquely from the rear.
2 is a block diagram showing an outline of a circuit configuration of the digital camera of FIG. 1. FIG.
3 is an exploded perspective view of components of the open / close door in FIG. 1. FIG.
FIG. 4 is a view of the locked state of the open / close door as viewed from the rear of the camera.
FIG. 5 is a view of the unlocking state of the open / close door as viewed from the rear of the camera.
6 is a view seen from the direction of arrow VI in FIG. 1 for explaining the open / closed state of the open / close door. FIG.
FIG. 7 is a view from the rear of the camera, showing a different embodiment of the door lock member of the open / close door.
FIG. 8 is a perspective view of one of the door lock members of FIG.
FIG. 9 is a diagram showing a door lock state in still another embodiment of the card insertion / removal mechanism.
10 is a diagram showing a card insertion state of the card insertion / removal mechanism of FIG.
11 is a perspective view showing a main part of the card insertion / removal mechanism shown in FIGS. 9 and 10. FIG.
[Explanation of symbols]
10 Digital camera
12 112 Camera body
22 22 '122 memory card
24 24 '124 card slot
30 82 Open / close door
32 32 'door body
36 83 Rotating shaft (opening / closing door side)
40 88 Door bias spring
50 70 Door lock member
46 46 '92 Rotating shaft (door lock member side)
56 72 Pressed arm
58 74 Lock arm
60 75 engaging part
62 Biasing spring for door lock member
64 64 'fixing protrusion
71 Shaft holding groove
78 Elastic arm
82A 82B Split door member
89 slit
90A, 90B Lock lever
94 Pressed part
94a inclined surface
96 Lock pin
98 steps
100 Lock lever biasing spring

Claims (6)

Card slot for inserting and removing plate-like cards;
The card slot can be turned to a closed position for restricting the insertion of the card and an open position allowing the card slot to be opened inward to allow the card to be inserted. An open / close door; and in the free state, the open / close door is independently locked in the closed position, and is unlocked when pressed by a card correctly inserted in the card slot, spaced apart in the width direction of the card slot. A pair of door lock members provided;
With
The open / close door is formed in an elongated rectangular plate shape that is long in the width direction of the card slot, and rotates to the closed position and the open position about an axis that extends in the longitudinal direction,
The pair of door lock members are supported by the elongated rectangular opening / closing door so as to be rotatable about an axis in a short direction perpendicular to the rotation axis of the opening / closing door. A card insertion / removal mechanism characterized in that the door is locked or unlocked by engaging / disengaging the fixed member . 2. The card insertion / removal mechanism according to claim 1 , wherein each of the pair of door lock members is integrally formed with an elastically deformable biasing portion that elastically contacts the opening / closing door and biases the door lock member in a locking direction. Card insertion / removal mechanism. Card slot for inserting and removing plate-like cards;
The card slot can be turned to a closed position for restricting the insertion of the card and an open position allowing the card slot to be opened inward to allow the card to be inserted. Open doors; and
In a free state, the door is independently locked in the closed position, and is unlocked when pressed by a card correctly inserted in the card slot. Door lock member;
With
The pair of opening / closing doors are arranged separately on both sides in the width direction of the card slot, and are supported rotatably at the closed position so that the extending direction thereof is substantially orthogonal to the card insertion direction. A card insertion / removal mechanism comprising a split door member. 4. The card insertion / removal mechanism according to claim 3 , wherein each of the pair of door lock members is rotated around one axis of the pair of split door members and the other in the vicinity of a rotation axis of the split door member. A card insertion / removal mechanism that is supported so as to be movable and engages / disengages with a corresponding divided door member by this rotation to lock or unlock. In the card insertion and removal mechanism according any of the preceding claims 1 to, wherein the pair of door lock members are disposed symmetrically with respect to the width direction of the center line of the card slot, when pressed toward the card insertion direction A card insertion / removal mechanism that unlocks by rotating in opposite directions. The card insertion / removal mechanism according to any one of claims 1 to 5 , wherein the card slot is formed in a camera body of a digital camera,
The card is a card insertion / removal mechanism that is a memory card for recording images taken by the digital camera.

Images